CN210534471U - open bone conduction glasses - Google Patents

Abstract

The utility model provides open-type bone conduction glasses, comprising: a first temple assembly, a second temple assembly and a frame. The first temple assembly includes a first temple shell, a first temple cover, a first circuit board, a first bone conduction speaker, a first battery and a first microphone. The first circuit board is provided with a first control chip and a first Bluetooth transceiver chip. The second temple assembly includes a second temple shell, a second temple cover, a second circuit board, a second bone conduction speaker, a second battery and a second microphone. The second circuit board is provided with a second control chip and a second Bluetooth transceiver chip. The first temple shell and the second temple shell are respectively detachably connected with the mirror frame. In the above-mentioned open bone conduction glasses, the first temple shell and the second temple shell are removed, and the frame can be replaced. Different mirror frames are selected according to requirements, and the functions of the first temple assembly and the second temple assembly are not affected by the change of the mirror frame. Users can change the frame according to their own needs, expanding the scope of application.

Description

Open bone conduction glasses

Technical Field

The utility model relates to a technical field of bone conduction glasses especially relates to an open bone conduction glasses.

Background

With the progress of scientific technology, the bone conduction technology is mature, and bone conduction Bluetooth glasses in the market are not enumerated. When the bone conduction Bluetooth glasses are used for carrying out communication or listening to music, the bone conduction Bluetooth glasses transmit sound to the auditory center of human ears through the skull, compared with the mode that the traditional earphone transmits sound through air, the bone conduction method has almost no noise and noise, and the sound transmitted to the auditory center of human ears is more clear than the air conduction. Moreover, when the bone conduction Bluetooth glasses are worn, the auditory canal is in an open state. On the one hand, sound is directly transmitted to the inner ear through skull vibration, and damage to the eardrum is reduced. On the other hand, the ears can still receive sound from the outside, and the alertness of people to the surrounding environment is kept, so that people are safer in the process of using the bone conduction Bluetooth glasses.

However, as for bone conduction bluetooth glasses in the market, a pair of glasses legs are connected through the wire in the picture frame, and picture frame and glasses legs can not be used separately. If want the style of change picture frame, then need purchase a pair glasses in addition, the picture frame can't be changed alone, leads to osteoacusis bluetooth glasses on the market can't satisfy people's diversified demand, and the application scope is narrower.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need to provide open type bone conduction glasses aiming at the technical problems that the frame cannot be replaced independently and the application range is small.

An open bone conduction eyeglass, comprising: first mirror leg subassembly, second mirror leg subassembly and picture frame. The first temple assembly and the second temple assembly are connected to the frame, respectively. The first temple assembly includes a first temple shell, a first temple cover, a first circuit board, a first bone conduction speaker, a first battery, and a first microphone. The first circuit board, the first bone conduction speaker, the first battery and the first microphone are respectively contained in the first glasses leg shell, the first glasses leg shell is provided with a first opening, and the first glasses leg cover is arranged at the first opening and connected with the first glasses leg shell. The first circuit board is electrically connected with the first bone conduction speaker, the first battery and the first microphone respectively. The first circuit board is provided with a first control chip and a first Bluetooth transceiving chip. The second temple assembly includes a second temple shell, a second temple cover, a second circuit board, a second bone conduction speaker, a second battery, and a second microphone. The second circuit board, the second bone conduction speaker, the second battery and the second microphone are respectively contained in the second glasses leg shell, the second glasses leg shell is provided with a second opening, and the second glasses leg cover is arranged at the second opening and connected with the second glasses leg shell. The first circuit board is electrically connected with the first bone conduction speaker, the first battery and the first microphone respectively. The second circuit board is provided with a second control chip and a second Bluetooth transceiving chip. The first glasses leg shell and the second glasses leg shell are detachably connected with the glasses frame respectively.

In one embodiment, the first temple assembly further comprises a first connector and the second temple assembly further comprises a second connector. A first shaft hole is formed in one end portion of the mirror frame, and a second shaft hole is formed in the other end portion of the mirror frame. First connecting hole has been seted up to first mirror leg shell one end, second mirror leg shell one end has seted up the second connecting hole. The first connecting pieces are respectively inserted into the first shaft holes and the first connecting holes and are respectively rotatably connected with the mirror frame and the first mirror leg shell, and the second connecting pieces are respectively inserted into the second shaft holes and the second connecting holes and are respectively rotatably connected with the mirror frame and the second mirror leg shell.

In one embodiment, the first temple assembly further includes a first tilt sensor, the first tilt sensor is accommodated in the first temple shell, and the first tilt sensor is electrically connected to the first circuit board. The second glasses leg assembly further comprises a second tilt angle sensor, the second tilt angle sensor is contained in the second glasses leg shell, and the second tilt angle sensor is electrically connected with the second circuit board.

In one embodiment, the first temple assembly further includes a first charging connecting seat, the first charging connecting seat is accommodated in the first temple shell, and the first charging connecting seat is electrically connected to the first circuit board. The second glasses leg assembly further comprises a second charging connecting seat, the second charging connecting seat is contained in the second glasses leg shell, and the second charging connecting seat is electrically connected with the second circuit board.

In one embodiment, the first temple assembly further includes a first indicator light piece electrically connected to the first circuit board, and the first indicator light piece is disposed on an outer side surface of the first temple shell. The second glasses leg assembly further comprises a second indicator light sheet, the second indicator light sheet is electrically connected with the second circuit board, and the second indicator light sheet is arranged on the outer side face of the second glasses leg shell.

In one embodiment, the first temple cover is provided with a first speaker opening, and the first speaker opening is adjacent to the first bone conduction speaker. And a second sound-raising port is formed in the second glasses leg cover, and the second sound-raising port is close to the second bone conduction speaker.

In one embodiment, the first temple assembly further comprises a first protective pad covering the first acoustic port and coupled to the first temple shell. The second temple assembly further comprises a second protection pad, and the second protection pad is covered in the second sound emitting port and connected with the second temple shell.

In one embodiment, the first opening is disposed toward the second temple shell and the second opening is disposed toward the first temple shell.

In one embodiment, the first circuit board is disposed adjacent to a side casing wall of the first temple housing. The second circuit board is disposed adjacent to a side casing wall of the second temple case.

In one embodiment, the first bone conduction speaker is disposed remotely from the frame. The second bone conduction speaker is arranged far away from the mirror frame.

According to the open type bone conduction glasses, the first circuit board, the first bone conduction loudspeaker, the first battery and the first microphone are respectively contained in the first glasses leg shell, and the second circuit board, the second bone conduction loudspeaker, the second battery and the second microphone are respectively contained in the second glasses leg shell, so that the glasses frame is not electrically connected with the first glasses leg assembly and the second glasses leg assembly, and the glasses frame can be replaced by detaching the first glasses leg shell and the second glasses leg shell. Therefore, a user can select different glasses frames according to own requirements, and the functions of the first glasses leg assembly and the second glasses leg assembly are not changed by the changes of the glasses frames. Therefore, the user can replace the glasses frame of the open type bone conduction glasses according to the self requirement, and the application range of the open type bone conduction glasses is expanded.

Drawings

FIG. 1 is a schematic diagram of an embodiment of open bone conduction glasses;

FIG. 2 is a schematic view of another perspective of the open bone conduction glasses of the embodiment of FIG. 1;

FIG. 3 is a schematic diagram illustrating a disassembled structure of the open bone conduction glasses of the embodiment shown in FIG. 2;

FIG. 4 is a schematic view of the open bone conduction glasses of the embodiment of FIG. 1 from a further perspective;

FIG. 5 is a schematic diagram illustrating a disassembled structure of the open bone conduction glasses of the embodiment shown in FIG. 4;

FIG. 6 is a schematic structural view of a first temple assembly of open bone conduction eyewear in one embodiment;

FIG. 7 is a schematic diagram of a second temple assembly of the open bone conduction eyewear in one embodiment;

fig. 8 is a schematic diagram illustrating a disassembled structure of the open bone conduction glasses according to an embodiment.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, as those skilled in the art will be able to make similar modifications without departing from the spirit and scope of the present invention.

Referring to fig. 1 to 8, the present invention provides an open bone conduction glasses 10, wherein the open bone conduction glasses 10 include: a first temple assembly 100, a second temple assembly 200, and a frame 300. The first temple assembly 100 and the second temple assembly 200 are connected to the frame 300, respectively. The first temple assembly 100 includes a first temple shell 110, a first temple cover 120, a first circuit board 130, a first bone conduction speaker 140, a first battery 150, and a first microphone 160. The first circuit board 130, the first bone conduction speaker 140, the first battery 150 and the first microphone 160 are respectively accommodated in the first temple shell 110, the first temple shell 110 has a first opening 111, and the first temple cover 120 is covered on the first opening 111 and connected to the first temple shell 110. The first circuit board 130 is electrically connected to the first bone conduction speaker 140, the first battery 150 and the first microphone 160, respectively. The first circuit board 130 is provided with a first control chip 131 and a first bluetooth transceiver chip 132. Second temple assembly 200 includes a second temple shell 210, a second temple cover 220, a second circuit board 230, a second bone conduction speaker 240, a second battery 250, and a second microphone 260. The second circuit board 230, the second bone conduction speaker 240, the second battery 250 and the second microphone 260 are respectively accommodated in the second temple housing 210, the second temple housing 210 has a second opening 211, and the second temple cover 220 is covered on the second opening 211 and connected to the second temple housing 210. The first circuit board 130 is electrically connected to the first bone conduction speaker 140, the first battery 150 and the first microphone 160, respectively. The second circuit board 230 is provided with a second control chip 231 and a second bluetooth transceiver chip 232. The first temple housing 110 and the second temple housing 210 are detachably connected to the frame 300, respectively.

In the open type bone conduction glasses, the first circuit board, the first bone conduction speaker, the first battery and the first microphone are respectively accommodated in the first temple shell, and the second circuit board, the second bone conduction speaker, the second battery and the second microphone are respectively accommodated in the second temple shell, so that there is no electrical connection relationship between the frame 300 and the first temple assembly 100 and the second temple assembly 200, and the frame 300 can be replaced by detaching the first temple shell 110 and the second temple shell 210. In this way, the user can select different glasses frames 300 according to his/her needs, and the functions of the first and second temple assemblies 100 and 200 are not changed by the glasses frames 300. Thus, the user can replace the frame 300 of the open bone conduction glasses according to the self requirement, and the application range of the open bone conduction glasses is expanded.

First temple assembly 100 is configured to perform a communication function. The first temple housing 110 is used to carry a first circuit board 130, a first bone conduction speaker 140, a first battery 150 and a first microphone 160, so as to provide an installation place, and to play a role of supporting and fixing. The first temple cover 120 is used for covering the first temple shell 110, the first temple cover 120 is covered on the first opening 111, and the first temple cover 120 is connected with the first temple shell 110, so that the first temple assembly 100 is structurally complete, and the structural stability is improved. In one embodiment, the first temple cover 120 is connected to the first temple shell 110 by screws. In another embodiment, the first temple cover 120 is connected to the first temple shell 110 by a snap-fit manner, so as to improve the convenience of assembly and disassembly.

The first circuit board 130 serves as a core device of the first temple assembly 100 for performing its communication function. The first circuit board 130 integrates a first control chip 131 and a first bluetooth transceiver chip 132. The first control chip 131 plays a role in coordination control, and the first bluetooth transceiver chip 132 is used for bluetooth connection with an intelligent terminal such as a mobile phone and a computer, so as to implement data interaction. The first circuit board 130 emits audio information through the first bone conduction speaker 140, and the first circuit board 130 receives the audio information through the first microphone 160. The first battery 150 is used for providing power to the first circuit board 130 to ensure the normal operation of the first temple assembly 100.

The first bone conduction speaker 140 is used to generate audio. The bone conduction speaker is a mature product in the market, and the structure and function thereof can refer to the prior art, and are not described herein again. The first bone conduction speaker 140 converts telecommunication data of the first circuit board 130, and the first bone conduction speaker 140 conducts sound to the auditory center of the human ear through the skull bone in a mechanical vibration manner. In order to facilitate the first bone conduction speaker 140 to conduct sound, in one embodiment, the first temple cover 120 defines a first sound emitting opening 121, and the first sound emitting opening 121 is defined adjacent to the first bone conduction speaker 140. In this way, the first bone conduction speaker 140 conducts sound to the user through the first sound emitting port 121, thereby improving the effectiveness of sound conduction and reducing the loss of sound conduction. Further, in an embodiment, the first temple assembly 100 further includes a first protection pad 170, and the first protection pad 170 is covered in the first acoustic port 121 and connected to the first temple shell 110. First protection pad 170 has played the effect of buffer protection, and first protection pad 170 is direct to be touched in the user butt to the effect of stability and travelling comfort has been worn in the promotion has been played.

The first microphone 160 is for receiving audio. In this embodiment, the first microphone 160 is an HL-4522 microphone MIC microphone. The structure is small and exquisite, and the operation is stable. The first microphone 160 converts sound into an electrical signal and transmits the electrical signal to the first circuit board 130, thereby implementing a communication function. To optimize the weight ratio of the open bone conduction glasses, in one embodiment, the first bone conduction speaker 140 is disposed away from the frame 300. Like this, the weight ratio of first mirror leg subassembly 100 is balanced, is difficult for empting in the use to promoted and worn stability, improved job stabilization nature.

In one embodiment, the first opening 111 is disposed toward the second temple shell 210. That is, first temple cover 120 is positioned on an inner side of first temple assembly 100, i.e., a side adjacent the user. Thus, the first temple cover 120 is closely attached to the user during wearing, so that the first temple cover 120 is not easily detached from the first opening 111. Thus, the working stability of the open bone conduction glasses is further improved. In order to improve the stability of data interaction with the external smart terminal device, in one embodiment, the first circuit board 130 is disposed near the side casing wall of the first temple housing 110. Like this, when the bluetooth signal outwards transmitted, effectively avoided first battery 150 to bluetooth data interaction's stability has been promoted.

In order to improve the power saving performance of the open bone conduction glasses, in one embodiment, the first temple assembly 100 further includes a first tilt sensor 180, the first tilt sensor 180 is housed in the first temple shell 110, and the first tilt sensor 180 is electrically connected to the first circuit board 130. In this embodiment, the first tilt sensor 180 is an AS1911 series sensor of ANGSEMI. The tilt sensor is a Hall sensor, the principle basis of the tilt sensor is Newton's second law, and according to the basic physical principle, the speed cannot be measured but the acceleration can be measured in a system. If the initial velocity is known, the linear velocity can be calculated through integration, and then the linear displacement can be calculated, so that the acceleration sensor is actually an acceleration sensor applying the inertia principle. In one embodiment, when the included angle between the first temple shell 110 and the frame 300 is greater than or equal to a predetermined angle, for example, the predetermined angle is 80 degrees, which is an unfolded state, i.e., an unfolded state, the first tilt sensor 180 indicates that the first circuit board 130 operates, so that the open bone conduction glasses are in an operating state. When the included angle between the first temple shell 110 and the frame 300 is smaller than the predetermined angle, the first tilt sensor 180 indicates that the first circuit board 130 stops operating, thereby achieving the effects of saving electric energy and prolonging the service life. Thus, the power saving performance is further optimized by monitoring the open bone conduction glasses through the first tilt sensor 180.

In order to improve the convenience of charging the first battery 150, in one embodiment, the first temple assembly 100 further includes a first charging connector holder 190, the first charging connector holder 190 is received in the first temple shell 110, and the first charging connector holder 190 is electrically connected to the first circuit board 130. In this embodiment, the first charging connecting seat 190 is a magnetic-type charging seat. Specifically, a concentric circular corporation series charging dock is used. The mode that formula data line connection was charged is the mature technique in market to magnetism, and its principle can refer to prior art, and no longer describes here. After the user detaches the first temple housing 110, the external charging wire may be connected to the first charging connection socket 190 to charge the first battery 150. This improves the charging convenience of the first battery 150.

In order to improve the indication function of the open bone conduction glasses, in one embodiment, the first temple assembly 100 further includes a first indicator light piece 191, the first indicator light piece 191 is electrically connected to the first circuit board 130, and the first indicator light piece 191 is disposed on the outer side surface of the first temple shell 110. In one embodiment, when the open bone conduction glasses are turned on, the first indicator light piece 191 emits a red light. When the open type bone conduction glasses are successfully matched with the external intelligent terminal, the first indicator light sheet 191 emits blue light. Therefore, the indication function of the open type bone conduction glasses is improved.

Second temple assembly 200 is also used to implement a communication function. The second temple housing 210 is used for carrying a second circuit board 230, a second bone conduction speaker 240, a second battery 250 and a second microphone 260 to provide an installation place and play a role of supporting and fixing. The second temple cover 220 is used for covering the second temple shell 210, the second temple cover 220 is covered on the second opening 211, and the second temple cover 220 is connected with the second temple shell 210, so that the second temple assembly 200 has a complete structure and the structural stability is improved. In one embodiment, the second temple cover 220 is connected to the second temple shell 210 by screws. In another embodiment, the second temple cover 220 is connected to the second temple shell 210 by a snap-fit manner, so as to improve the convenience of assembly and disassembly.

The second circuit board 230 serves as a core device of the second temple assembly 200 for its communication function. The second circuit board 230 integrates a second control chip 231 and a second bluetooth transceiver chip 232. The second control chip 231 plays a role in coordination control, and the second bluetooth transceiver chip 232 is used for bluetooth connection with an intelligent terminal such as a mobile phone and a computer, so as to realize data interaction. The second circuit board 230 emits audio information through the second bone conduction speaker 240, and the second circuit board 230 receives the audio information through the second microphone 260. The second battery 250 is used to provide power to the second circuit board 230 to ensure the proper operation of the second temple assembly 200.

The second bone conduction speaker 240 is used to generate audio. The bone conduction speaker is a mature product in the market, and the structure and function thereof can refer to the prior art, and are not described herein again. The second bone conduction speaker 240 converts the telecommunication data of the second circuit board 230, and the second bone conduction speaker 240 conducts the sound to the auditory center of the human ear through the skull bone in a mechanical vibration manner. In order to facilitate the conduction of sound by the second bone conduction speaker 240, in one embodiment, the second temple cover 220 defines a second sound emitting opening 221, and the second sound emitting opening 221 is formed adjacent to the second bone conduction speaker 240. In this way, the second bone conduction speaker 240 conducts sound to the user through the second sound emitting port 221, thereby improving the effectiveness of sound conduction and reducing the loss of sound conduction. Further, in an embodiment, the second temple assembly 200 further includes a second protective pad 270, and the second protective pad 270 is covered in the second acoustic port 221 and connected to the second temple shell 210. Second protection pad 270 has played the effect of buffering protection, and second protection pad 270 is direct to touch in user's butt to the effect of stability and travelling comfort has been worn in the promotion has been played.

The second microphone 260 is for receiving audio. In this embodiment, the second microphone 260 is an HL-4522 microphone MIC microphone. The structure is small and exquisite, and the operation is stable. The second microphone 260 converts sound into an electrical signal and transmits the electrical signal to the second circuit board 230, thereby implementing a communication function. To optimize the weight ratio of the open bone conduction glasses, in one embodiment, the second bone conduction speaker 240 is disposed away from the frame 300. Like this, the weight ratio of second mirror leg subassembly 200 is balanced, is difficult for empting in the use to promoted and worn stability, improved job stabilization nature.

In one embodiment, the second opening 211 is disposed toward the second temple shell 210. That is, second temple cover 220 is positioned on an inner side of second temple assembly 200, i.e., a side adjacent the user. Thus, the second temple cover 220 is closely attached to the user during wearing, so that the second temple cover 220 is not easily detached from the second opening 211. Thus, the working stability of the open bone conduction glasses is further improved. In order to improve the stability of data interaction with the external smart terminal device, in one embodiment, the second circuit board 230 is disposed near the side casing wall of the second temple housing 210. Like this, when the bluetooth signal outwards transmitted, effectively avoided second battery 250 to the interactive stability of bluetooth data has been promoted.

In order to improve the power saving performance of the open bone conduction glasses, in one embodiment, the second temple assembly 200 further includes a second tilt sensor 280, the second tilt sensor 280 is accommodated in the second temple shell 210, and the second tilt sensor 280 is electrically connected to the second circuit board 230. In this embodiment, the second tilt sensor 280 is an AS1911 series sensor of ANGSEMI. In one embodiment, when the included angle between the second temple shell 210 and the frame 300 is greater than or equal to a predetermined angle, for example, the predetermined angle is 80 degrees, which is an unfolded state, i.e., an unfolded state. The second tilt sensor 280 indicates that the second circuit board 230 is operating, so that the open bone conduction glasses are in an operating state. When the included angle between the second temple shell 210 and the frame 300 is smaller than the predetermined angle, the second tilt sensor 280 indicates that the second circuit board 230 stops operating, thereby achieving the effects of saving electric energy and prolonging the service life. Thus, the power saving performance is further optimized by monitoring the open bone conduction glasses through the second tilt sensor 280.

In order to improve the convenience of charging the second battery 250, in one embodiment, the second temple assembly 200 further includes a second charging connecting socket 290, the second charging connecting socket 290 is received in the second temple shell 210, and the second charging connecting socket 290 is electrically connected to the second circuit board 230. In this embodiment, the second charging connecting seat 290 is a magnetic-type charging seat. Specifically, a concentric circular corporation series charging dock is used. The mode that formula data line connection was charged is the mature technique in market to magnetism, and its principle can refer to prior art, and no longer describes here. After the user detaches the second temple housing 210, the external charging wire may be connected to the second charging connection socket 290 to charge the second battery 250. This improves the charging convenience of the second battery 250.

In order to improve the indication function of the open bone conduction glasses, in one embodiment, the second temple assembly 200 further includes a second indication lamp piece 291, the second indication lamp piece 291 is electrically connected to the second circuit board 230, and the second indication lamp piece 291 is disposed on the outer side of the second temple shell 210. In one embodiment, when the open bone conduction glasses are turned on, the second indicator blade 291 emits red light. When the open bone conduction glasses are successfully matched with the external intelligent terminal, the second indicator light piece 291 emits blue light. Therefore, the indication function of the open type bone conduction glasses is improved.

The frame 300 is used to carry lenses to provide an optical eyeglass function. The frame 300 is not electrically connected to the first temple assembly 100 and the second temple assembly 200. The first battery 150 provides power for the first circuit board 130, the second battery 250 provides power for the second circuit board 230, and the first circuit board 130 and the second circuit board 230 operate independently and independently. First bluetooth transceiver chip 132 can be connected with second bluetooth transceiver chip 232 bluetooth to realize the data interaction of first mirror leg subassembly 100 and second mirror leg subassembly 200. The first temple assembly 100 and the second temple assembly 200 are independent from each other, and the frame 300 can be replaced by removing the first temple case 110 and the second temple case 210. The user can select different glasses frames 300 according to his or her own needs, and the functions of the first temple assembly 100 and the second temple assembly 200 are not changed by the glasses frames 300.

Specifically, in one embodiment, first temple assembly 100 further includes a first connector 310 and second temple assembly 200 further includes a second connector 320. One end of the frame body 300 has a first shaft hole 311, and the other end of the frame body 300 has a second shaft hole 312. One end of the first temple shell 110 has a first connecting hole 321, and one end of the second temple shell 210 has a second connecting hole 322. The first connecting member 310 is inserted into the first shaft hole 311 and the first connecting hole 321 and rotatably connected to the frame 300 and the first temple case 110, respectively, and the second connecting member 320 is inserted into the second shaft hole 312 and the second connecting hole 322 and rotatably connected to the frame 300 and the second temple case 210, respectively. Thus, the two ends of the frame 300 are respectively connected with the first temple shell 110 and the second temple shell 210 in a stable and reliable manner, and the structural stability of the open type bone conduction glasses is improved.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. An open bone conduction eyeglass, comprising: a first temple assembly, a second temple assembly, and a frame; the first temple assembly and the second temple assembly are respectively connected with the spectacle frame;

the first temple assembly comprises a first temple shell, a first temple cover, a first circuit board, a first bone conduction speaker, a first battery, and a first microphone; the first circuit board, the first bone conduction speaker, the first battery and the first microphone are respectively accommodated in the first temple shell, the first temple shell is provided with a first opening, and the first temple cover is arranged in the first opening and connected with the first temple shell;

the first circuit board is electrically connected with the first bone conduction speaker, the first battery and the first microphone respectively; the first circuit board is provided with a first control chip and a first Bluetooth transceiving chip;

the second temple assembly comprises a second temple shell, a second temple cover, a second circuit board, a second bone conduction speaker, a second battery, and a second microphone; the second circuit board, the second bone conduction speaker, the second battery and the second microphone are respectively accommodated in the second temple shell, the second temple shell is provided with a second opening, and the second temple cover is covered on the second opening and connected with the second temple shell;

the first circuit board is electrically connected with the first bone conduction speaker, the first battery and the first microphone respectively; the second circuit board is provided with a second control chip and a second Bluetooth transceiving chip;

the first glasses leg shell and the second glasses leg shell are detachably connected with the glasses frame respectively.

2. The open bone conduction eyeglasses according to claim 1, wherein the first temple assembly further comprises a first connector, the second temple assembly further comprises a second connector; one end of the mirror frame is provided with a first shaft hole, and the other end of the mirror frame is provided with a second shaft hole; one end of the first glasses leg shell is provided with a first connecting hole, and one end of the second glasses leg shell is provided with a second connecting hole; the first connecting pieces are respectively inserted into the first shaft holes and the first connecting holes and are respectively rotatably connected with the mirror frame and the first mirror leg shell, and the second connecting pieces are respectively inserted into the second shaft holes and the second connecting holes and are respectively rotatably connected with the mirror frame and the second mirror leg shell.

3. The open bone conduction glasses of claim 1, wherein the first temple assembly further comprises a first tilt sensor, the first tilt sensor being housed in the first temple shell, the first tilt sensor being electrically connected to the first circuit board; the second glasses leg assembly further comprises a second tilt angle sensor, the second tilt angle sensor is contained in the second glasses leg shell, and the second tilt angle sensor is electrically connected with the second circuit board.

4. The open bone conduction glasses of claim 1, wherein the first temple assembly further comprises a first charging connector base, the first charging connector base being received in the first temple shell, the first charging connector base being electrically connected to the first circuit board; the second glasses leg assembly further comprises a second charging connecting seat, the second charging connecting seat is contained in the second glasses leg shell, and the second charging connecting seat is electrically connected with the second circuit board.

5. The open bone conduction eyeglasses according to claim 1, wherein the first temple assembly further comprises a first indicator light piece electrically connected to the first circuit board, the first indicator light piece being disposed on an outer side surface of the first temple shell; the second glasses leg assembly further comprises a second indicator light sheet, the second indicator light sheet is electrically connected with the second circuit board, and the second indicator light sheet is arranged on the outer side face of the second glasses leg shell.

6. The open bone conduction eyeglasses according to claim 1, wherein the first temple cover is open with a first speaker opening adjacent to the first bone conduction speaker; and a second sound-raising port is formed in the second glasses leg cover, and the second sound-raising port is close to the second bone conduction speaker.

7. The open bone conduction eyeglasses according to claim 6, wherein the first temple assembly further comprises a first protective pad covering the first acoustic port and connected to the first temple shell; the second temple assembly further comprises a second protection pad, and the second protection pad is covered in the second sound emitting port and connected with the second temple shell.

8. The open bone conduction eyeglasses according to claim 1, wherein the first opening is disposed toward the second temple shell and the second opening is disposed toward the first temple shell.

9. The open bone conduction eyeglasses according to claim 1, wherein the first circuit board is disposed adjacent to a side housing wall of the first temple housing; the second circuit board is disposed adjacent to a side casing wall of the second temple case.

10. The open bone conduction eyeglasses according to claim 1, wherein the first bone conduction speaker is disposed remotely from the frame; the second bone conduction speaker is arranged far away from the mirror frame.

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